Your search keyword '"Piero Bellanova"' showing total 30 results

1. Distribution of the geochemical signature caused by the 2011 Tohoku-oki tsunami in Misawa harbor, northern Japan

Author

Mike Frenken, Piero Bellanova, Yuichi Nishimura, Klaus Reicherter, and Jan Schwarzbauer

Subjects

Atmospheric Science, ddc:550, Earth and Planetary Sciences (miscellaneous), Water Science and Technology

Abstract

Natural hazards (2022). doi:10.1007/s11069-022-05391-y, Published by Springer Science + Business Media B.V., Dordrecht [u.a.]

Published

2022

2. The risk may not be limited to the flooding – Polluted high flood sediments pose a health threat to the unaware public

Author

Alexandra Weber, Stefanie Wolf, Nadine Becker, Leonie Märker-Neuhaus, Piero Bellanova, Catrina Brüll, Henner Hollert, Elena-Maria Klopries, Holger Schüttrumpf, and Frank Lehmkuhl

Abstract

Background Because of global climate change, extreme flood events will increase in quantity and intensity in the upcoming decades. In catchments affected by ore mining, flooding leads to the deposition of fine sediments enriched in trace metal(loid)s. Depending on their concentration, trace metal(loid)s can be a health hazard. Therefore, the exposure of the local population to flood sediments, either by ingestion (covering direct ingestion and consuming food grown on these sediments) or via inhalation of dried sediments contributing to atmospheric particulate matter, is of concern. Results The extreme flood of July 2021 deposited enormous amounts of sediment across the town of Eschweiler (western Germany), with the inundation area exceeding previously mapped extreme flood limits (HQextreme). These sediments are rich in fine material (with the < 63 µm fraction making up 32% to 96%), which either can stick to the skin and be ingested or be inhaled. They are moderately to heavily enriched in Zn>Cu>Pb>Cd>Sn compared to local background concentrations. The concentrations of Zn, Pb, Cd, Cu, and As in flood sediments exceed international trigger action values. A simple assessment of uptake reveals that the tolerable daily intake is exceeded for Pb. Despite the enrichment of other trace elements like Zn, Cu, Cd, and Sn, they presumably do not pose a risk to human well-being. However, exposure to high dust concentrations may be a health risk. Conclusions In conclusion, flood sediments, especially in catchments impacted by mining, may pose a risk to the affected public. Hence, we propose to (I) improve the flood mapping by incorporating potential pollution sources, (II) extend warning messages to incorporate specific guidance, (III) use appropriate clean-up strategies in the aftermath of such flooding events, (IV) provide medical support, and (V) clue the public and medical professionals in on this topic accordingly.

Published

2023

3. Microtextural signatures in quartz grains and foraminifera from tsunami deposits of the Portuguese shelf

Author

Missilene Yhasnara, Pedro J. M. Costa, Francisco Dourado, Maria Virginia Alves Martins, Lisa Feist, Piero Bellanova, and Klaus Reicherter

Subjects

Earth and Planetary Sciences (miscellaneous), Environmental Science (miscellaneous), Geotechnical Engineering and Engineering Geology, Oceanography

Abstract

This study presents results from two sediment cores collected on the southern Portuguese shelf attempting to, partially, fill the knowledge gap of the offshore record of high-energy events. The results were obtained based on description of cores, microtextural analysis of quartz grains and foraminiferal taphonomy. The lithostratigraphy, corresponding to late Holocene sedimentation, with intercalations of medium sand-rich in bioclastic fragments with erosive basal contact. In terms of microtextures, a high degree of mechanical marks on the grains associated with tsunami deposition was observed and reflects the high-energy hydrodynamic processes. In compositional terms the higher presence of quartz grains in these units favours the increase of mechanical marks, because grain-to-grain contact is more intense. Additionally, the geomorphological setting of the coring sites determined the degree and type of mechanical microtextures observed. Furthermore, post-depositional changes and characteristics of the original sediment source contribute to explain the occurrence of dissolution in units of GeoB23513-02. The foraminiferal taphonomy displayed a predominance of dissolution alteration in the tests surfaces that was more evident in the silty layers. On the other hand, similarly to quartz grains microtextural signature, the sandy high-energy units exhibit a slight predominance of physical processes despite the still strong presence of dissolution. Furthermore, the sole presence of species (middle to outer shelf) in some units is an indication that there was little reworking of these specimens. Finally, the results obtained in this study show potential to recognize the microtextural signature of Holocene tsunami events in offshore environments.

Published

2022

4. Organic geochemical investigation of far‐field tsunami deposits of the Kahana Valley, O‘ahu, Hawai‘i

Author

Bruce E. Jaffe, Frances Griswold, Mike Frenken, Jan Schwarzbauer, Klaus Reicherter, Bruce M. Richmond, Piero Bellanova, Seanpaul La Selle, and Alan R. Nelson

Subjects

Stratigraphy, Organic geochemistry, Geochemistry, Geology

Published

2020

5. Suitable indicators to determine tsunami impact on coastal areas in Northern Japan, Aomori Prefecture

Author

Mike Frenken, Piero Bellanova, Yuichi Nishimura, Philipp Schulte, Frank Lehmkuhl, Klaus Reicherter, and Jan Schwarzbauer

Subjects

Japan, Tsunamis, Earthquakes, 333.7, ddc:333.7, General Medicine, Management, Monitoring, Policy and Law, Pollution, Environmental Monitoring, General Environmental Science

Abstract

Environmental monitoring and assessment 194(5), 385 (2022). doi:10.1007/s10661-022-09989-4, Published by Springer Science + Business Media B.V, Dordrecht [u.a.]

Published

2022

6. Chennai’s urban river systems – environmental changes, anthropogenic pollution and flood-induced remobilization

Author

Luisa Bellanova, Piero Bellanova, Jan Schwarzbauer, Frank Lehmkuhl, Philipp Schulte, and Klaus Reicherter

Abstract

With a projected increase in frequency and magnitude of extreme weather events, the fast-growing coastal population centers of the Asian Global South experience a higher susceptibility to flood-related pollution. This is fueled by rapid land-use changes, urbanization, a multitude of emission sources, as well as anthropogenic- and flood-induced remobilization and relocation of pollutants. To yield a more comprehensive understanding of riverine and coastal floods in conjunction with these rapid urban and land-use changes, their impact on the environment and the health risks posed to local communities, sedimentary archives need to be studied.Meandering through densely populated urban areas, Chennai’s rivers (Cooum and Adyar) and coastal systems have been affected by monsoon-induced floods (e.g., 2015 South Indian floods) and the 2004 Indian Ocean tsunami. Simultaneously, Chennai experienced an explosive population growth over the past 30 years, with the coinciding changes in land-use, urbanization, anthropogenic alterations to aquatic systems (e.g., damming, dredging), and (unregulated) environmental pollution. Especially the missing regulations, as well as growing volumes of sewage and physical waste have an enormous toll on the aquatic systems, but also pose threats by remobilization during floods.To investigate potential flood-induced strata and chemostratigraphic changes over time, a total of nine sediment profiles along the Adyar and Cooum rivers are subject to GC-MS analyses of organic pollutants in correlation to stratigraphic changes in the obtained sediment profiles.First results indicate that organic pollutants, such as petrogenic compounds (hopanes, PAHs), urban wastewater compounds (LABs, DEHA, methyl-triclosane), technical compounds (Mesamoll®, DPE, NBFA) and pesticides (e.g., DDX) allow for the identification of past flooding events and their characterization in terms of release and distribution of pollution. These proxies are used to assess (chemo-)stratigraphical alterations preserved in these sedimentary archives. However, sedimentary archives in fast-growing, urbanized environments are influenced by physical anthropogenic alterations leading to superimpositions or a hiatus in the sedimentary archives, thus hampering with the (chemo-)stratigraphic reconstruction of past flooding events and environmental changes.

Published

2022

7. Toxic European Summer Flood – Dispersion of organic pollutants along the Vicht and Inde rivers, Germany

Author

Piero Bellanova, Jan Schwarzbauer, and Klaus Reicherter

Abstract

The 2021 European floods (July 13th–16th, 2021) marked Germany’s deadliest (>180 fatalities) and most costly (>€ 30 billion) natural disaster of the 21st century. In North Rhine-Westphalia (Germany) the floods have caused drastic scenes of destruction along small mountainous river systems, such as the Vicht and Inde rivers. Alongside this destruction stands the release of organic pollutants and the remobilization of sediment-associated old burdens in the former mining area of Stolberg. In a preliminary study 10 samples along the floodplains and urban areas of Vicht and the successive Inde rivers have been collected directly after the flood to determine the pollution concentration, dispersion and potential sources. With this information an assessment of the short-term and long-term environmental risks can be evaluated.First results show acute enrichment of organic pollutants, such as polycyclic aromatic hydrocarbons (PAHs – petrogenic pollutants), polychlorinated biphenlys (PCBs – old burdens/plasticizers) and linear alkylbenzenes (LABs – sewage). The sewage indicators show their highest release and accumulation in samples taken in the urban areas, and subsequently dilute along the natural floodplain segments. This repeats for at least for Stolberg and Eschweiler, which were flooded by the Vicht and Inde, respectively. Old burdens, such as represented by PCBs, related to historical and present heavy industry in the vicinity to the rivers. The flood caused the remobilization of respective old burdens from contaminated plains and urban sources. Petrogenic markers, especially those of PAHs, have been measured in concentrations of mg/kg, vastly exceeding all environmental guidelines and restrictions. These can also be linked to the flooding of industrial and urban sites (e.g., household oil heating tanks, vehicles).The wide range of observed pollution and fast dispersion of sediment-associated pollutants can be linked to the highly dynamic nature of this flood. In addition, the multitude of historical (mining, heavy industry) and present sources (e.g., fuels, oil, factory effluents, wastewater), sediment-associated pollutants have been remobilized or acutely released with the flood. This unprecedented 2021 European floods may allow insights into the relationships and interactions between hydrodynamics, sedimentology and pollution during such events.

Published

2022

8. The 2021 Flood Disaster in Germany – Distribution, remobilization and accumulation of organic pollutants along the natural floodplains of the Rur river

Author

Christina Schwanen, Piero Bellanova, and Jan Schwarzbauer

Abstract

Due to extreme precipitation and runoff, severe flooding occurred in Germany in the summer of 2021 (July 13th–16th). In the catchment area of the Rur river, especially along its tributaries Inde and Wurm, but also along the Rur itself, this flood caused severe destruction and impacts on modern and older floodplains and anthropogenic utilized areas. This led to the acute and unusual input of harmful organic pollutants, as well as the remobilization and relocation of old burdens.Particularly floodplains are of central importance during such flood events as their natural functions include water, sediment, and nutrient retention, as well as the self-purification of water bodies. The focus of this investigation was therefore on the importance and relevance of natural floodplains during and after the 2021 summer flood. For this purpose, 16 different floodplains distributed throughout the Rur’s course were sampled immediately after the flood. The objectives were to determine pollutant concentrations, distribution, and accumulation, as well as the identification of potential pollution sources. In this context, the results of previous floodplain sampling and regular monitoring of the river’s sediments are also considered.Preliminary results indicate elevated concentrations of several organic pollutant groups, including PAHs (polycyclic aromatic hydrocarbons), PCBs (polychlorinated biphenyls), and LABs (linear alkylbenzenes). These substances are indicators of petrogenic pollution, historical (old burdens) and current heavy industry in the catchment area, and, of wastewater and urban pollution, respectively.By considering these indicators and identifying emission sources (e.g., wastewater treatment plants, destructed infrastructure and industry along the main river and its tributaries) and accumulation areas that are relevant for remobilization, statements can be obtained about the high dynamics of the flood event. Furthermore, the importance of natural floodplains for the accumulation and remobilization of organic pollutants, but also the self-purification of water bodies is thus investigated and emphasized. This is of great importance for the holistic assessment of the fate and behaviour of organic pollutants as well as for the estimation of short- and long-term environmental risks and hazards related to (extreme) flood events.

Published

2022

9. Holocene offshore tsunami archive – Tsunami deposits on the Algarve shelf (Portugal)

Author

Lisa Feist, Pedro J.M. Costa, Piero Bellanova, Ivana Bosnic, Juan I. Santisteban, César Andrade, Helmut Brückner, João F. Duarte, Jannis Kuhlmann, Jan Schwarzbauer, Andreas Vött, and Klaus Reicherter

Subjects

Stratigraphy, Geology

Published

2023

10. Multi-proxy Analysis of the AD 1755 Lisbon Tsunami Deposits in El Palmar de Vejer, Spain

Author

Mike Frenken, Christoph Cämmerer, Piero Bellanova, Lisa Feist, Max Chaumet, Kira Raith, Philipp Schulte, Frank Lehmkuhl, Jan Schwarzbauer, and Klaus Reicherter

Published

2022

11. The sedimentological and environmental footprint of extreme wave events in Boca do Rio, Algarve coast, Portugal

Author

Peter Biermanns, Sebastian Frank, Klaus Reicherter, Lisa Feist, Hannes Laermanns, Pedro Costa, Dominik Brill, Helmut Brückner, Jan Schwarzbauer, Piero Bellanova, Felix Teichner, Christoph Cämmerer, and Margret Mathes-Schmidt

Subjects

010506 paleontology, Stratigraphy, Micropaleontology, Sediment, Geology, 010502 geochemistry & geophysics, 01 natural sciences, Coring, law.invention, Paleontology, Granulometry, law, Clastic rock, Sedimentary rock, Alluvium, Radiocarbon dating, 0105 earth and related environmental sciences

Abstract

In 1755 CE, a strong earthquake followed by a transatlantic tsunami destroyed large coastal areas; it also left its sedimentary imprints in the Boca do Rio valley (western Algarve, Portugal). This tsunami layer is very well preserved and has been analysed in several studies. Deposits of preceding extreme wave events, however, have rarely been described for the entire Algarve coast. In this study, we present a multiproxy analysis of seven sediment cores from the Boca do Rio region, organized in two crossing transects, one parallel and the other perpendicular to the coastline. The geochronological framework has been established by combining radiocarbon and optically stimulated luminescence dating with sedimentological and geochemical analyses (XRF, C/N, magnetic susceptibility, granulometry, micropalaeontology), and covers the palaeogeographical evolution of that area for the last four millennia. As expected, the 1755 CE tsunami was easily identified at all coring sites, as a sandwiched stratum between fine-grained alluvium. This event layer presents several tsunami characteristics, such as erosive basal contact, rip-up clasts, a fining-upward sequence, and a mud cap. At one coring site, a second extreme wave event layer of marine origin was detected within floodplain deposits, due to its granulometric, XRF, magnetic susceptibility and micropalaeontological properties. It is stratigraphically located below the 1755 CE Lisbon tsunami layer and can be associated with another yet undocumented extreme wave event, most likely dating to the mid or late 1st millennium CE.

Published

2019

12. Tracing woody-organic tsunami deposits of the 2011 Tohoku-oki event in Misawa (Japan)

Author

Piero Bellanova, Jan Schwarzbauer, Mike Frenken, Klaus Reicherter, and Yuichi Nishimura

Subjects

Shore, geography, Multidisciplinary, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Science, Lead (sea ice), Natural hazards, Sediment, Organic layer, 010502 geochemistry & geophysics, 01 natural sciences, Article, Organic fraction, Oceanography, Natural hazard, Environmental chemistry, Medicine, ddc:600, Geology, 0105 earth and related environmental sciences

Abstract

Scientific reports 11(1), 8947 (2021). doi:10.1038/s41598-021-88199-3, Published by Macmillan Publishers Limited, part of Springer Nature, [London]

Published

2021

13. Contemporary pollution of surface sediments from the Algarve shelf, Portugal

Author

Piero Bellanova, Lisa Feist, Pedro J.M. Costa, Sarah Orywol, Klaus Reicherter, Frank Lehmkuhl, and Jan Schwarzbauer

Subjects

China, Geologic Sediments, Portugal, Rivers, Metals, Heavy, Humans, Aquatic Science, Oceanography, Pollution, Water Pollutants, Chemical, Environmental Monitoring

Abstract

The present-day human footprint is traceable in all environments. Growing urban centers, tourism, agricultural and industrial activities in combination with fishery, aquacultures and intense naval traffic, result in a large output of pollutants onto coastal regions. The Algarve shelf (Portugal) is one exemplary highly affected coastal system. With this study the contemporary pollution was followed in eighteen offshore surface sediment samples. Heavy metals (e.g., Cr, Pb, Cu, Hg) and organic contaminants, such as linear alkylbenzenes, dichlorodiphenyltrichloroethane metabolites, polycyclic aromatic hydrocarbons, and hopanes, have been identified and quantified, that pose hazardous effects on the marine environment and biota. This study correlates spatial distribution patterns with the pollutant composition, potential sources and pathways, each sample's grain size, and local influences, such as discharging river systems and ocean currents. This study presents a blueprint-study that allows the methodological adaption to new shelf systems with regionally different ocean current-driven distribution patterns of anthropogenic pollutants.

Published

2021

14. Suitable geochemical markers to determine tsunami impact : an approach on coastal areas in Northern Japan

Author

Klaus Reicherter, Yuichi Nishimura, Jan Schwarzbauer, Mike Frenken, and Piero Bellanova

Abstract

s & presentations / EGU General Assembly 2021 EGU General Assembly 2021, EGU21, online, 19 Apr 2021 - 30 Apr 2021; G��ttingen : Copernicus Gesellschaft mbH EGU21-1985, 1 Seite (2021). doi:10.5194/egusphere-egu21-1985, Published by Copernicus Gesellschaft mbH, G��ttingen

Published

2021

15. Remobilization of hazardous contaminants caused by climate-induced flood events in (sub-)tropical river systems (Chennai, India)

Author

Luisa Helm, Jan Schwarzbauer, Nina Engels, Piero Bellanova, Klaus Reicherter, Frank Lehmkuhl, and Fabienne Uphoff

Subjects

Flood myth, Hazardous waste, Environmental science, Subtropics, Water resource management

Abstract

s & presentations : EGU General Assembly 2021 EGU General Assembly 2021, vEGU21, online, 19 Apr 2021 - 30 Apr 2021; G��ttingen : Copernicus Gesellschaft mbH EGU21-14389, 2 Seiten (2021). doi:10.5194/egusphere-egu21-14389, Published by Copernicus Gesellschaft mbH, G��ttingen

Published

2021

16. The continental shelf as an offshore archive for tsunami deposits – an example from southwest Iberia (RV METEOR cruise M152)

Author

Lisa Feist, Klaus Reicherter, Pedro J.M. Costa, Piero Bellanova, Juan I. Santisteban, Ivana Bosnic, Cristina Val-Peón, Jan Schwarzbauer, Mike Frenken, Andreas Vött, Helmut Brückner, Holger Schüttrumpf, César Andrade, João F. Duarte, Jannis Kuhlmann, and the M152 scientific team

Abstract

In AD 1755 a strong earthquake-generated tsunami destroyed large parts of the southwest Iberian coastline. Data for the study of the sedimentological characteristics and palaeo-ecological effects of the backwash of this well-known AD 1755 Lisbon tsunami and possible preceding events on the continental shelf was obtained during RV METEOR cruise M152 in November 2018, since the hydrodynamics of tsunami backwash currents are as yet poorly understood. Furthermore, the suitability of the shelf as a reliable sedimentary archive for tsunami deposits was investigated.Along the Algarve coast, prominent AD 1755 Lisbon tsunami deposits have been detected onshore for quite some time. Cruise M152 conducted a geophysical survey on the corresponding shelf area to obtain bathymetry and sub-bottom profiles for the recognition of depositional basins. Subsequently, 19 sediment cores were retrieved from the most suitable depositional basins by vibracoring at water depths from 65 to 114 m. The cores were analysed in a multiproxy approach (granulometry, magnetic susceptibility, P-wave velocities, organic and inorganic geochemistry, micropalaeontology). Deposits of the AD 1755 Lisbon tsunami were identified in most of the cores as a thin layer at ca. 20 cm depth.More surprisingly, a second event deposit dating to ca. 3700 years cal. BP was detected at core depths of 122 to 155 cm. It is even traceable in the sub-bottom profiles and consists of a distinctive ca. 30 cm thick well sorted medium-sized siliciclastic sand. Due to the thickness of the deposit an in-depth study of its characteristics was possible. It displays an erosive basal contact followed by a thin matrix-poor shell hash layer, a reversely graded fine sand layer and ultimately a massive, quite homogeneous medium sand resembling the Ta division of the Bouma sequence or the S1, S2 and S3 divisions of the Lowe sequence. The deposit is distinguishable from the silt to silty sand-dominated background sedimentation not only due to the textural and compositional features, but also due to contrasting geophysical and geochemical properties. Terrestrial provenance for (at least parts of) the sediment is revealed by biomarker analysis. Based on these characteristics, the deposit is interpreted as the result of a high density hyperpycnal flow from the coast towards the offshore caused by tsunami backwash. This event layer may be correlated to onshore observations of tsunami deposits along the southwest coast of Spain but has never been identified in Portugal where the onshore record of tsunami deposits only covers the last three millennia.The results of this multiproxy analysis strongly suggest the shallow offshore area below storm wave base to host reliable sedimentary archives for tsunami backwash deposits, which allow the discovery of as yet unknown events. Palaeotsunami research can benefit from the investigation of offshore archives, especially where onshore records are incomplete or sparse.

Published

2020

17. Uncharted archives – imprints of tsunami backwash deposits on the Algarve shelf (Portugal)

Author

Piero Bellanova, Klaus Reicherter, Pedro J.M. Costa, Mike Frenken, Lisa Feist, Jan Schwarzbauer, Juan I. Santisteban, Andreas Vött, Ivana Bosnic, Helmut Brückner, Holger Schüttrumpf, César Andrade, João F Duarte, Jannis Kuhlmann, and the M152 scientfic Team

Abstract

Research on offshore tsunami deposits is scarce and their depositional processes and preservation potential are virtually unexplored. Therefore, the RV Meteor cruise M152 mapped and sampled one coast-parallel and two coast-perpendicular transects at water depths from 65 to 114 m off the Algarve coast (Portugal). This coast was strongly affected by the well-known Lisbon earthquake and tsunami of November 1st, 1755 AD. Numerous onshore locations have been well documented and studied with historic damage reports and modern scientific investigations of the onshore tsunami deposits. However, very scarce information about the backwash, the water masses flowing back into the sea, exists and their imprint on the shelf is unexplored.In order to fill this gap, a total of 19 vibracores were recovered during the RV Meteor cruise M152. For tracing the sedimentary imprint of the AD 1755 tsunami and potential predecessors, a multi-proxy analysis was carried out (sedimentology, micropaleontology, inorganic and organic geochemistry, radiocarbon and OSL dating). Within the offshore Holocene stratigraphic record, at least two event layers of likely tsunami backwash origin were identified based on their significantly different properties compared to the background shelf sediments. The uppermost tsunami layer (at a depth of 16-25 cm in most cores) displays an erosional contact at the base with heterogeneous compositional changes; its bounding radiocarbon ages allow a correlation with the AD 1755 Lisbon tsunami. Organic-geochemical markers, such as n-alkanes, polycyclic aromatic hydrocarbons, steroids and fatty acids, show an increased input of terrestrial matter in this offshore AD 1755 event layer.A surprising discovery was another distinct high-energy deposit, i.e. a potential predecessor to the AD 1755 Lisbon tsunami, at a core depth of about 122-155 cm, which was 14C-dated to approx. 3700 yrs cal BP. Due to its erosional base and coarse-grained composition (well-sorted medium sand), as well as the increased terrestrial influence (displayed by biomarkers), it can be assumed that this deposit originates from the backwash of a paleo-tsunami.This multi-proxy approach with sedimentological, micropaleontological, inorganic and organic-geochemical criteria, enabled us to (1) identify of backwash tsunami deposits; (2) establish a recurrence interval; and (3) estimate the hazard potential for the related coastal areas. Results of the M152 cruise demonstrate for the first time that the depositional basins on the Algarve shelf have the potential to reliably archive Holocene tsunami backwash deposits. The low-energy environment of the outer Algarve shelf sets prime conditions for the preservation of tsunami backwash deposits. Thus, these geoarchives offer the possibility to study the mechanisms and hydrodynamics of backwash currents, and to investigate tsunami strata that are not preserved elsewhere.

Published

2020

18. AD 1755 Lisbon tsunami deposits – geophysical, sedimentological and organic geochemical analysis (Conil de la Frontera, Spain)

Author

Christoph Cämmerer, Mike Frenken, Piero Bellanova, Max Chaumet, Jan Schwarzbauer, and Klaus Reicherter

Abstract

On the 1st November AD 1755, the tsunami, triggered by the 8.5 to 9 MW 1755 Lisbon earthquake, caused major inundations with sediment transport along the coastline of the Gulf of Cadiz. The study area, Conil de la Frontera (El Palmar de Vejer), located at the Gulf of Cadiz in southwestern Spain, was severely stuck by the AD 1755 Lisbon tsunami. Witness of the destruction and power of the tsunami inundation are the walls of Torre de Castilnovo, close to the study area, which got heavily destroyed. El Palmar de Vejer was chosen as a study area due to the topographical setting, characterized by the flat alluvial flood plain. With these peculiarities, the area presents good preconditions as a sedimentological archive for potential deposits of the AD 1755 tsunami.First, geophysical methods were used to identify potential sandy layers attributed to the AD 1755 tsunami. Ground-penetrating radar (270 MHz antenna) was used to systematically scan the ground to a depth of ca. 3 m. The evaluation of these radargrams were taken into account for the selection of GeoSlicer drilling locations. Based on the samples obtained, granulometric analyses were carried out (1) to identify the potential sandy tsunami deposit; (2) to analyze the different sedimentological depositional environments before, during and after the tsunami; (3) to detect tsunami sublayers deriving from different waves within the wave-train of the AD 1755 Lisbon tsunami, since 3 waves were reported.Furthermore, both inorganic and organic geochemical investigations were performed on the samples. With the help of inorganic geochemical analysis of major elements (Si, Sr, Ti, Ca, N, S) as well as elemental ratios can identify a distinction between marine and terrestrial depositional environments and accumulate more information about the deposit facies. By the use of organic geochemistry for the analysis of biomarker, several different natural compounds were detected (e.g., n-alkanes, n-aldehydes). Biomarker results suggest a distinct differentiation between the AD 1755 tsunami deposit and the surrounding background sediment layers above and below. The tsunami deposits contrasts to the post and pre-tsunami layers by different concentrations of biomarkers and deviant occurrence of specific compounds. The n-alkanes are manifesting the difference of marine and terrestrial sources of the different layers. Results of this study analyzing the Iberian sedimentary archives at Conil de la Frontera present strong evidence that a multi-proxy approach with the inclusion of geochemical applications can confidently detect tsunami deposits, distinguish them from surrounding background sediments and subsequently characterize the internal structure and composition of the tsunami deposit.

Published

2020

19. Lagoa de Santo André - The Holocene evolution of a coastal lake at the Atlantic coast of Portugal

Author

Sebastian Frank, Hannes Laermanns, Anna Pint, Barbara Wagner, Piero Bellanova, Lisa Feist, Margret Mathes-Schmidt, Klaus Reicherter, and Helmut Brückner

Abstract

The Lagoa de Santo André is a coastal lake located ca. 80 km south of Lisbon at the Atlantic coast of Portugal. The region is highly vulnerable to earthquake-triggered tsunami events due to its exposure to the very active tectonic boundary between the Eurasian and the African plates. Despite several natural and artificial breaches of beach barrier in the past, the lagoon still represents an appropriate geo-bio-archive for reconstructing the Holocene palaeoenvironmental evolution. For this purpose, a 10-m-long sediment core was taken from the centre of the lake by using a floating platform. Sedimentological, geochemical and micropalaeontological analyses were performed in order to unravel the former geological and climatic conditions, and to identify short-term events like tsunamis or storm surges that might have crossed or breached the shielding barrier, leaving their footprint in the sedimentary record of the lagoon.The sediment core covers the palaeoenvironmental evolution of Lagoa de Santo André for at least the last eight millennia. The sandy deposits of the lowermost part of the core most likely represent the littoral phase of a palaeo-beach that had developed when the postglacial marine transgression had reached the area. Above alternating layers indicate varying environmental conditions that are characterised by peat growth, stagnant-water areas and intercalating sand layers that deposited during disconnections from and reconnections with the open sea. Since 3000 BC at the latest, the longshore transport had formed a beach barrier that separated the coastal lake from the open sea. As yet no deposits of an extreme wave event have been detected. However, the ongoing microfaunal analysis will clarify, if sudden changes of the salinity have occurred due to significant saltwater intrusions, which would hint at potential extreme wave events.

Published

2020

20. Organic geochemical analysis of multiple tsunami deposits of the last century at the Aomori coast (Northern Japan)

Author

Yuichi Nishimura, Klaus Reicherter, Jan Schwarzbauer, Mike Frenken, and Piero Bellanova

Abstract

Japan, more precisely, the eastern coastal areas of Honshu, are one of the most affected areas of tsunamis in the world. Major events within the last century were three Sanriki-oki tsunamis (1896, 1933, 1968), and the most recent 2011 Tohoku-oki tsunami, triggered by the 9.1 MW Tohoku-oki earthquake, which caused massive damage along the coastlines.The 2011 Tohoku-oki tsunami overtopped the coastal defense walls with waves of 6-10 m height along the shores of the Aomori Prefecture in Northern Japan. The inundation reached up to 550 m inland, however, sandy tsunami deposits are limited to 250 – 350 m of the total inundation distance. At the field site of Misawa Harbor the well-preserved identifiable tsunami remains show up to 18 cm thick sand layers with sedimentary features, such as fining upward sequences, mud caps and rip-up clasts. The sandy deposits were enclosed in the soil of the coastal protection forest. Along with the sedimentary record of the tsunami, the use of organic geochemical indicators can provide a better understanding of the extend and processes, such as the deposition of tsunami layers and the backwash, of the inundation by the 2011 Tohoku-oki tsunami. The devastating damages caused by the interaction of tsunami and earthquake released pollutants associated as biological and anthropogenic markers. These released pollutants give the tsunami deposit an unique geochemical signature, that is distinguishable from the background sedimentation. Organic-geochemical results reveal a strong increase of anthropogenic (polycyclic aromatic hydrocarbons, pesticides and chlorinated compounds) and a variation of biological markers (i.e. n-alkanes, fatty acids) in the 2011 tsunami deposit close to the fishery port. During the analysis of the samples, another variation of biomarker and anthropogenic marker were identified right below the soil layer of the current forest. This layer is as well distinguishable from the paleo-dune that marks the lowest sedimentological unit at the field site. This differentiation shows the likely impact of a historical Sanriki-oki tsunami (1896, 1933 or 1968). These organic geochemical results in combination with local eyewitness reports of the tsunamis and lead to the assumption that the sedimentary archive of the Aomori coastline contains and preserved at two or more tsunami events of the last century.The inclusion of organic geochemical markers to expand the characterizing and identifying proxies used in tsunami research are important to get a better understanding of the processes and deposition during tsunamis. Furthermore, this method can detect tsunami deposits beyond the visible recognizability of sedimentological identification of tsunami deposits and therefore can serve as a blue-print for historical and paleo-tsunami studies, as most of them only rely on visible sand deposits as marker for inundation distances from the beach. The high-resolution geochemical application can gain more information than standard techniques, like the identification of the “invisible” tsunami layer exceeding the limits of sandy deposits or the deposition in similar sedimentary textures, capturing a broader picture of the event.

Published

2020

21. Multiproxy analysis of tsunami deposits—The Tirúa example, central Chile

Author

Piero Bellanova, Barbara Huber, Vanessa Nentwig, Andrzej Witkowski, Alfonso Encinas, Ewa Górecka, and Heinrich Bahlburg

Subjects

010504 meteorology & atmospheric sciences, Stratigraphy, Geochemistry, Geology, 010502 geochemistry & geophysics, 01 natural sciences, 0105 earth and related environmental sciences

Published

2018

22. Evaluation of organic indicators derived from extractable, hydrolysable and macromolecular organic matter in sedimentary tsunami deposits

Author

Olga Konechnaya, Jan Schwarzbauer, Mike Frenken, Klaus Reicherter, and Piero Bellanova

Subjects

chemistry.chemical_classification, education.field_of_study, Terrigenous sediment, Population, Sediment, Geology, Oceanography, chemistry, Geochemistry and Petrology, Environmental chemistry, Sedimentary organic matter, Organic matter, Sedimentary rock, Extraction (military), education, Pyrolysis

Abstract

Due to the high population density and sensitive infrastructures, coastal areas are highly vulnerable to various geohazards such as tsunamis. The impact of tsunamis is traceable in sedimentary archives providing an important tool for reconstructing these events. Here, geochemical and physical evidence of the resulting inundations have been discussed over the last years with increasing interest on identifying and using highly specific tsumanite indicators. To investigate a broader range of potential organic indicators, a multi-tiered geochemical analysis has been applied on tsunami deposit from Japan and Hawaii in this study with the aim to detect and quantify a more comprehensive set of suitable marker compounds. Both areas of investigation differed especially in terms of population and anthropogenic influence. The analyzed fractions of organic matter covered not only the low molecular weight compounds of the extractable and hydrolysable fraction (a part of the non-extractable fraction), but also the macromolecular matter. Three consecutive analytical approaches including extraction, alkaline hydrolysis and pyrolysis have been applied on the sedimentary organic matter to study their potential to contrast between tsunami and non-tsunami layers. The analyses of compound ratios as well as individual concentration profiles in tsunami and non-tsunami layers revealed two parameters, the TARFA (terrigenous to aquatic ratio of fatty acids) and the C29/C27 sterol ratio, which exhibit a high potential to act as tsunamite indicators. Further parameters (TARALK - terrigenous to aquatic ratio of n-alkanes, concentration profiles of long-chain n-aldehydes) showed a minor potential but are worth to be considered in organic geochemical analyses of tsunami affected sediment archives in the future.

Published

2022

23. Remobilization of pollutants during extreme flood events poses severe risks to human and environmental health

Author

Holger Schüttrumpf, Lars M. Blank, Henner Hollert, Klaus Reicherter, Roland Weber, Werner Brack, Piero Bellanova, Peter Letmathe, Joost T. van Dongen, Lucas Menzel, Markus Brinkmann, Markus Hecker, Sarah E. Crawford, Jacob D. Ouellet, Frank Lehmkuhl, and Jan Schwarzbauer

Subjects

Pollutant, Environmental Engineering, Flood myth, Environmental remediation, Health, Toxicology and Mutagenesis, Flooding (psychology), Climate change, Environmental pollution, Pollution, Floods, Extreme weather, Rivers, Humans, Environmental Chemistry, Environmental science, Environmental Pollutants, Environmental Health, Waste Management and Disposal, Environmental planning, Loss of life

Abstract

While it is well recognized that the frequency and intensity of flood events are increasing worldwide, the environmental, economic, and societal consequences of remobilization and distribution of pollutants during flood events are not widely recognized. Loss of life, damage to infrastructure, and monetary cleanup costs associated with floods are important direct effects. However, there is a lack of attention towards the indirect effects of pollutants that are remobilized and redistributed during such catastrophic flood events, particularly considering the known toxic effects of substances present in flood-prone areas. The global examination of floods caused by a range of extreme events (e.g., heavy rainfall, tsunamis, extra- and tropical storms) and subsequent distribution of sediment-bound pollutants are needed to improve interdisciplinary investigations. Such examinations will aid in the remediation and management action plans necessary to tackle issues of environmental pollution from flooding. River basin-wide and coastal lowland action plans need to balance the opposing goals of flood retention, catchment conservation, and economical use of water.

Published

2022

24. Heavy minerals analysis on tsunami deposits from Misawa (Japan)

Author

João Cascalho, Pedro Costa, Piero Bellanova, Klaus Reicherter, Ana Abrantes, and Mike Frenken

Abstract

Heavy minerals in tsunami and storm deposits have been used to establish sediment sources and to infer the inundation and backwash phases (Morton et al., 2007). The abundance of these minerals is dependent on the hydrodynamic conditions that existed during transport and depositional stages. Overall, heavy mineral analysis allowed interpretations on sediment dynamics. Heavy mineral studies on tsunami deposits allowed the establishment of source-to-sink relationships thus, contributed to establish transport paths and inundation routes (Jagodzinski et al., 2012; Putra et al., 2013; Costa et al., 2015; Cascalho et al., 2016).After the Tohoku-oki tsunami event, GeoSlicer were excavated and tsunami imprints were retrieved from the slices in Misawa coastal area (Japan). Heavy minerals from thirty-six samples were analyzed. Heavy minerals in the sediment fraction of 0.125-0.500 mm were separated by centrifugation in sodium polytungstate (2.90 kg/m3) and recovered by partial freezing with liquid nitrogen. An average of about 220 transparent heavy-mineral grains per sample were identified and counted under a petrographic microscope. Heavy minerals not mounted on glass slides were subjected to the ferromagnetic separation using a Frantz Isodynamic Magnetic apparatus to estimate the weight of magnetite in each sample.Heavy-mineral weight in total sediment fraction presented a mean value of 31%, ranging between 18 and 59%. The magnetite weight percentage present in the heavy-mineral fraction has a mean of 26% ranging between 14 and 43%.Considering the mean frequency of the transparent heavy minerals it was identified the presence of orthopyroxenes (67%), followed by clinopyroxenes (30%).These results indicate that the main original source of heavy minerals are basic volcanic rocks. The wide ranges of variation of the total heavy mineral fraction and the magnetite present in that fraction provides useful information about the flow competence of the tsunami waves. The samples that reveal higher concentration in total heavy minerals tend to be richer in magnetite. These results could be used to pinpoint water flow conditions (velocity thresholds) promoting grain sorting leading to the formation of layers enriched in heavy minerals. Confirming previous cases, heavy mineral analysis in Misawa tsunami deposit seems to provide useful insights into tsunami-derived sediment dynamic. Cascalho, J., Costa, P., Dawson, S., Milne, F. and Rocha, A. 2016. Heavy mineral assemblages of the Storegga tsunami deposit. Sedimentary geology, 334, 21-33. Costa, P.J., Andrade, C., Cascalho, J., Dawson, A.G., Freitas, M.C., Paris, R. and Dawson, S., 2015. Onshore tsunami sediment transport mechanisms inferred from heavy mineral assemblages. The Holocene, 25(5), pp.795-809.Jagodziński, R., Sternal, B., Szczuciński, W., Chagué-Goff, C. and Sugawara, D., 2012. Heavy minerals in the 2011 Tohoku-oki tsunami deposits—insights into sediment sources and hydrodynamics. Sedimentary Geology, 282, pp.57-64.Morton, R.A., Gelfenbaum, G. and Jaffe, B.E., 2007. Physical criteria for distinguishing sandy tsunami and storm deposits using modern examples. Sedimentary Geology, 200(3-4), pp.184-207.Putra, P.S., Nishimura, Y., Nakamura, Y. and Yulianto, E., 2013. Sources and transportation modes of the 2011 Tohoku-Oki tsunami deposits on the central east Japan coast. Sedimentary Geology, 294, pp.282-293.The author would like to acknowledge the financial support FCT through project UIDB/50019/2020 – IDL and by FCT OnOff project PTDC/CTAGEO/28941/2017.

Published

2020

25. How to interpret Holocene palaeoenvironmental and cultural changes in SW Iberia based on the palynological record from the GeoB23519-01 core (RV METEOR cruise M152)

Author

Piero Bellanova, Pedro Costa, Helmut Brückner, José Antonio López-Sáez, Holger Schüttrumpf, César Andrade, Klaus Reicherter, João Duarte, Jan Schwarzbauer, Juan I. Santisteban, Ivana Bosnic, Andreas Vött, Daniela Eichner, Mike Frenken, Lisa Feist, Cristina Val-Peón, and Jannis Kuhlmann

Subjects

Palynology, Core (optical fiber), Meteor (satellite), Paleontology, Cruise, Geology, Holocene

Abstract

The southwest of the Iberian peninsula is, due to its border position between Africa and Europe, a key territory of major geoarchaeological interest, as well as a reservoir of biodiversity and a wildlife refuge area during the Holocene. Bioclimatic conditions have been significantly unstable during this period in the Western Mediterranean. Therefore, further studies are still required to understand how abrupt climate changes such as the 8.2 and 4.2 ka cal BP events impacted societies and environment. In November 2018 the RV Meteor cruise M-152 retrieved 19 vibracores and 4 gravity cores along the Algarve coast after mapping the bathymetry. One of these cores, GeoB23519-01, was taken 65 m below present sea level and recovered 365 cm of sediment. Four potential event layers were identified over the last 11 ka cal BP and, at least two of them, are related to tsunami deposits (ca. 4370 cal BP and AD 1755). This sedimentary archive was analysed in a multi-proxy approach, including palynological and micropalaeontological analyses, which allow characterizing palaeoenvironmental changes along the core. However, considering the characteristics of these deposits, we raise questions about how complex this palynological record is and how it mirrors some short-term events, climate dynamics, and cultural disruptions.

Published

2020

26. The Santo André lagoon at the Atlantic coast of Portugal – Holocene evolution and event history

Author

Sebastian Frank, Anna Pint, Piero Bellanova, Margret Mathes-Schmidt, Helmut Brückner, Hannes Laermanns, Klaus Reicherter, Juliane Scheder, Felix Teichner, Barbara Wagner, and Lisa Feist

Subjects

010506 paleontology, Peat, Paleontology, Storm, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Longshore drift, Plate tectonics, Sedimentary rock, Coastal flood, Ecology, Evolution, Behavior and Systematics, Geology, Holocene, 0105 earth and related environmental sciences, Earth-Surface Processes, Marine transgression

Abstract

The Santo Andre lagoon is located on the southern west coast of Portugal, about 80 km south of Lisbon. Although the beach barrier separating the lagoon from the open sea was occasionally breached in the past and has artificially been opened on an annual basis for the last decades, the lagoon still represents an appropriate geo-bio-archive for reconstructing the Holocene palaeoenvironmental evolution. For this purpose, a 10-m-long sediment core was taken from the centre of the lagoon by using a floating platform. Sedimentological, geochemical and micropalaeontological analyses were performed in order to unravel past sedimentological, environmental and climatic conditions. Due to the lagoon's exposure to storms from the Atlantic and possible tsunamis triggered by earthquakes along the Eurasian-African plate boundary south of Portugal, it is of high interest to identify short-term high energy events that might have crossed or breached the shielding barrier, leaving their footprint in the sedimentary record of the lagoon. The sediment core archived the palaeoenvironmental evolution of the Santo Andre lagoon for at least the last eight millennia. The sandy deposits of the core's lowermost part most likely represent a former coastal flood plain that developed when the postglacial marine transgression had reached the area. The continued sea-level rise deposited alternating layers which indicate varying environmental conditions, characterized by peat growth, stagnant-water areas, as well as disconnections from and reconnections with the open sea. Since approximately 5000 BP, the longshore transport had formed a beach barrier, separating the marine embayment from the open sea and creating a lagoon. In addition, four sudden significant marine inundations between ~8500 and 6000 BP are indicated by the sedimentary and microfaunal analyses. Two of these layers can be correlated to extreme wave events (unit B-II), while for the other two layers an ingression caused by sea-level rise or extreme wave events remains debatable.

Published

2021

27. Microtextural analysis of quartz grains of tsunami and non-tsunami deposits – A case study from Tirúa (Chile)

Author

Michaela Spiske, Piero Bellanova, Heinrich Bahlburg, and Vanessa Nentwig

Subjects

010504 meteorology & atmospheric sciences, Stratigraphy, Geochemistry, Sediment, Geology, Storm, 010502 geochemistry & geophysics, 01 natural sciences, Tsunami hazard, Quartz, Geomorphology, Analysis method, 0105 earth and related environmental sciences

Abstract

In order to estimate the tsunami hazard it is essential to reliably identify and differentiate tsunami deposits from other high-energy events like storms. Recently, the microtextural analysis of quartz grain surfaces was introduced as a method to differentiate between tsunami and other deposits. Using tsunami deposits sampled from a bank profile of the Tirua river (central Chile), an area that was significantly affected by the 2010 and 1960 Chile tsunamis, we tested the microtextural analysis method for its capability to identify tsunami deposits. A total of 815 quartz grain surfaces of two tsunami layers, two non-tsunami marsh sediment samples, and three reference samples from nearby beach, dune and river were analyzed using scanning electron microscopy (SEM). We grouped the detected microtexture features into five microtextural families: angularity, fresh surfaces, percussion marks, adhering particles and dissolution features. Both the tsunami deposits and reference samples reveal high numbers of fresh surfaces and percussion marks. Thus, there are no statistically significant differences between tsunami, beach, dune and river deposits in characteristics and abundances in all microtextural families. Our study indicates that the microtextural analysis of quartz grains may not be a suitable method to identify tsunami deposits in Tirua (Chile), due to local factors such as high numbers of inherited microtextures and the possible effects of the high amount of heavy minerals.

Published

2016

28. Sedimentary evidence of prehistoric distant‐source tsunamis in the Hawaiian Islands

Author

Haunani H. Kane, Bruce M. Richmond, Frances Griswold, Seanpaul La Selle, Maria Elizabeth Martin Arcos, Catherine Chagué, Guy Gelfenbaum, Piero Bellanova, Alan R. Nelson, Bruce E. Jaffe, B. Lunghino, and James M. Bishop

Subjects

Prehistory, Thesaurus (information retrieval), Stratigraphy, ddc:550, Extreme events, Geology, Sedimentary rock, Archaeology

Abstract

Sedimentology : the journal of the International Association of Sedimentologists (2019). doi:10.1111/sed.12623, Published by Wiley-Blackwell, Oxford

Published

2019

29. Anthropogenic pollutants and biomarkers for the identification of 2011 Tohoku-oki tsunami deposits (Japan)

Author

Piero Bellanova, Witold Szczuciński, Klaus Reicherter, Bruce E. Jaffe, Mike Frenken, and Jan Schwarzbauer

Subjects

Pollutant, 010504 meteorology & atmospheric sciences, business.industry, Transport pathways, Fossil fuel, Sediment, Geology, Contamination, Pesticide, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Geochemistry and Petrology, Environmental chemistry, Organic geochemistry, Environmental science, Identification (biology), Anthropogenic pollutants, business, 0105 earth and related environmental sciences

Abstract

s & presentations / EGU General Assembly 2020 European Geoscience Union General Assembly, EGU 2020, online, 4 May 2020 - 8 May 2020; G��ttingen : Copernicus Gesellschaft mbH EGU2020-8218, 1 Seite (2020). doi:10.5194/egusphere-egu2020-8218, Published by Copernicus Gesellschaft mbH, G��ttingen

Published

2020

30. Dynamik Futurismus

Author

Piero Bellanova, Bruno Munari, and Alfredo Trimarco

Published

2012